EP0149257A2 - Method of and apparatus for recording video signal associated with photographic image - Google Patents
Method of and apparatus for recording video signal associated with photographic image Download PDFInfo
- Publication number
- EP0149257A2 EP0149257A2 EP84116484A EP84116484A EP0149257A2 EP 0149257 A2 EP0149257 A2 EP 0149257A2 EP 84116484 A EP84116484 A EP 84116484A EP 84116484 A EP84116484 A EP 84116484A EP 0149257 A2 EP0149257 A2 EP 0149257A2
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- EP
- European Patent Office
- Prior art keywords
- frame
- photographic
- image
- images
- video signal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
- H04N1/04—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
- H04N1/21—Intermediate information storage
- H04N1/2166—Intermediate information storage for mass storage, e.g. in document filing systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N2201/00—Indexing scheme relating to scanning, transmission or reproduction of documents or the like, and to details thereof
- H04N2201/04—Scanning arrangements
- H04N2201/0402—Arrangements not specific to a particular one of the scanning methods covered by groups H04N1/04 - H04N1/207
- H04N2201/0432—Adjusting the orientation of the scanning elements relative to the scanned sheet, e.g. changing from longitudinal to lateral scanning
Definitions
- the present invention relates to a method of and apparatus for recording a photographic image and, more particularly, to a method of and apparatus for producing a video signal in a television signal format, for example, by picking up a frame which stores a photographic image therein, to record the video signal in a recording medium.
- the photographic image may be any one of those stored in the frames of a negative or positive film, which may be colored or monochromatic, and those of prints, which may also be colored or monochromatic.
- The-stored video signal may be read out of such a recording medium to reproduce the image in the form of a soft copy on a video display such as a video monitor.
- the video signal may be visualized in the form of a hard copy and is open to other various manners of later use.
- Films storing photographic images and applicable to a video signal producing apparatus of the type described include a roll of long film and a circular disc of film.
- the roll type film is marketed in various standards, such as full and half sizes of JIS (Japanese Industrial Standard) 135 type films and 110 type films, each having specific frames recordable with a length- to-width dimensional ratio particular thereto. That is, the size of a frame differs from one type of film to another over a wide range.
- JIS Japanese Industrial Standard
- 110 type films each having specific frames recordable with a length- to-width dimensional ratio particular thereto. That is, the size of a frame differs from one type of film to another over a wide range.
- print album In the case of printed pictures, or prints, they may be accommodated in a single elongate carrier so as to be supplied to the apparatus as a so-called print album. Besides such a continuous supply mode, prints may be supplied in a discrete, frame-by-frame mode.
- an image or picture of the kind described may be displayed on a video display as a T V picture in order to see it.
- a problem encountered here is due to the fact that an ordinary TV receiver or like video display which is generally usable as a monitor has a screen horizontally longer than vertically.
- the standard screen of such a display has a horizontal-to-vertical dimensional ratio of 4:3, whereas the size of a photographic picture differs over a wide range and, in addition, images in some frames may be oriented vertically and those in some other frames horizontally, depending upon the selected position of a camera at the time of shooting.
- full size-frames for example, they may sometimes be exposed in one top-bottom orientation and sometimes in the other top-bottom orientation with respect to the lengthwise direction of the film, although all of them may be in vertical positions.
- horizontally positioned frames may differ in top-bottom orientation depending upon the kind of a camera used.
- the pictures should always be displayed on the horizontally long screen of the display in a correct top-bottom orientation and in adequate dimensions without loosing essential portions thereof.
- a method of recording photographic images by picking up a group of photographic images recorded in horizontal and vertical positions in substantially equally dimensioned frames to store in a storage medium video signals representative of the photographic images in the order of the group of photographic images.
- One of frame orientations which include at least the vertical and horizontal positions of the photographic images recorded in the respective frames is selected.
- those photographic images which are in the selected one orientation is selected out of the group of photographic images. Relative rotation of the photographic images with respect to the selected one orientation is set.
- a magnification for formation of a video signal which is smaller than a magnification for the images in the horizontal position is set.
- the selected photographic image is picked up to store the video signal representative of the image in a store position of the storage medium which is assigned to the image.
- the selection, pickup and storage is performed on all the photographic images which are in the selected one frame orientation.
- the selection, rotation setting, magnification setting, pickup, and storage are performed on one of the remaining frame orientations, whereby the above procedure is repeated on the desired frame orientations.
- an apparatus for recording a photographic image having image pickup means for picking up a group of photographic images which are stored in vertical and horizontal positions in a plurality of substantially equally dimensioned frames to form video signals representative of the photographic images, and recording means for recording the video signals in a storage medium in the order of the group of photographic images.
- First setting means sets relative rotation of the photographic images according to the frame orientations of the photographic images recorded in the respective frames which include at least vertical and horizontal positions.
- Second setting means sets, for the vertical images, a smaller magnification for formation of a video signal than a magnification for the horizontal images.
- Sensor means senses frame orientations of the respective photographic images in the group.
- Control means which controls the image pickup device, recording means, first and second setting means, and sensor means, selects one of the frame orientations, identifies by the sensor means those photographic images which are in the selected one frame position out of the group of photographic images in the order of the photographic images in the group, causes the first setting means to relatively rotate the photographic images with respect to the selected one frame orientation, sets, for the vertical images, a smaller magnification for formation of a video signal than a magnification for horizontal images by the second setting means, causes the image pickup means to pick up the identified photographic image, causes the recording means to store the video signal representative of the photographic image in a store position of the storage medium which is assigned to the photographic image, causes the identification and pickup of the photographic image, and the storage of the video signal on all the photographic images which share the selected one frame orientation, and causes the identification, rotation setting, magnification setting, pickup, and storage on one of the remaining frame orientations, whereby the above procedure is repeated on the desired frame orientations.
- a dotted line 10 represents an effective picture area of a video display in which a video signal representative of a picture in a standard TV signal format is reproducible.
- the standard vertical-to-horizontal dimensional ratio of the effective picture area is 3:4.
- Solid lines 12a, 12b, 12c and 12d each show exposed frames of a film which, in this example, is assumed to be a JIS 135 type, full-size film, the vertical-to-horizontal ratio of each frame being 2:3.
- the horizontal width of the frame 12a which is horizontally positioned is substantially equal to that of the effective picture area 10 and the frame 12a is entirely included in the area 10. Therefore, narrow regions 14 indicated by leftwardly upward hatching remain blank with no video information appearing therein.
- the height of the frame 12b which is in a horizontal position is substantially equal to that of the effective picture area 10, so that those narrow portions 16 of the picture which are indicated by rightwardly upward hatching are omitted without being displayed. Nevertheless, since the finder of a camera has a field which is usually designed with a substantial margin for safety purpose, it is improbable that such an amount of omission leads to loosing video information which is stored in essential part of the picture.
- magnification in FIG. 1A is “1"
- magnification in FIG. 1B is about 1.14 times that of FIG. 1A.
- the height of the frame 12c which is vertically positioned is substantially equal to that of the effective picture area 10, the whole frame 22c being included in the area 10. Therefore, the regions 1 4 of the area 10 indicated by leftwardly upward hatching remain blank; the total area of the regions 14 is 50% of the area 10.
- the magnification in FIG. 1C is about 0.74 times that of FIG. 1A.
- a horizontal picture is converted into a video signal in the condition shown in FIG. 1A or 1B.
- a vertical picture is processed in the condition indicated by the solid line 12c in FIG. 1C or in a condition similar thereto as indicated by a dash-and-dot line 12e, i.e., a condition which allows hardly, any of the essential part of the picture to be lost.
- a vertical picture is, therefore, picked up in a magnification smaller than that of a horizontal picture. It will thus be understood that the ratio of the area of the omitted regions 16 to the total area of the frame 12 should acceptably be about 25% or less, preferably about 20% or less, and optimumly substantially 0%.
- the apparatus of the present invention includes an optical system, generally indicated by reference numeral 100, which extends from a light source 104 driven by a lamp power source 102 to a video camera head 106.
- an optical system Arranged sequentially on the optical axis 120 are an ND filter 108, a light integrator 110, a color compensation filter 112, a lens deck 114 and an optical shutter 116.
- the ND filter 108 is an optical wedge filter whose optical density steplessly changes and is driven by a filter motor 118 in a plane perpendicular to the optical axis 120 to move into and out of the optical axis 120, thereby changing the illuminance of light passing therethrough.
- the filter 112 serves as a color compensation filter for removing orange when a negative film applied with an orange mask is used with the apparatus, as will be described. When required, the filter 112 is driven by a filter motor 126 into the optical axis 120 in a plane perpendicular to the optical axis 120.
- a visual-image recorded material 124 such as film or print, supported by a carrier 122 is located in a predetermined position between the filter 112 and the lens deck 114 as illustrated, so that any desired frame of the recorded material 124 may be illuminated by an illumination system.
- the recorded material 124 may be film supplied in any desired configuration such as in a roll or a disc. Concerning a roll type film, for example, use may be made of a negative film or a positive film, whether it be color or monochromatic, in any possible standard such as the JIS 135 type full- or half-size, or the 110 type.
- the illumination system is arranged so as to have the illuminating rays emitted therefrom pass the film into lens deck 114. If a print is used as recorded material 124, then the illumination system is so disposed as to direct the rays emanating therefrom to the print, on which the reflected rays go in turn into lens deck 114.
- the frame of the image-carrying material 124 to be picked up is fixed in place in a predetermined pickup station by pressing members 128, which are actuated by a solenoid 130.
- a photometric element 132 is responsive to an illuminance of the frame.
- the film 124a used as image-carrying material 124 with the illustrative embodiment may comprise a 135 type film which was exposed in a full-size.
- the film 124a is formed with notches 20, 22, 24 and so on at opposite edges 26 and 28 thereof.
- a notch 20 having a predetermined shape is formed at one edge 26 of the film 124a in alignment with a frame 12f which was exposed horizontally in a given top-bottom orientation with respect to a predetermined longitudinal direction, e.g. a direction indicated by an arrow F .
- a notch 22 having another shape is formed at the other edge 28 in alignment with a frame 12g which was exposed in a vertical position in a given top-bottom orientation, and a notch 24 different in shape from the notch 11 is formed at the edge 28 in alignment with a frame 12h which was exposed in a vertical position but in the opposite top-bottom orientation to the frame 12g.
- a notch not shown, having a predetermined shape different from that of the notch 20 is associated with a frame (not shown) which was exposed in a horizontal position but in the opposite top-bottom orientation to the frame 12f.
- a notch such as the notch 20 is sensed by a film sensor 134 so that a particular orientation of an image in a frame such as the frame 12f is identified.
- the identification of a frame orientation may be implemented by a number of notches, instead of the shape.
- the lens deck 114 accommodates therein an image rotating mirror box 136 and, in this particular embodiment, two lens systems 138 and 140.
- the image rotating mirror box 136 is provided with three mirrors 144, 146 and 148 and driven by an image rotating motor 142 over an angular range of more than 270 degrees about the optical axis 120 relative to the deck 114. This allows an image in a frame of the film 124 to become incident to the camera head 106 in a position rotated within the range of at least 270 degrees.
- the lens systems 138 and 140 are selectively driven by a lens motor-150 into alignment with the optical axis 120 depending upon the size of the film 124a.
- the lens system 138 will be selected and, where it is of the 110 type or the disc type, the lens system 140.
- the lens deck 114 is mounted on a housing of the apparatus in such a manner as to be reciprocable parallel to the optical axis 120.
- the reciprocation of the lens deck 114 is effected by a lens deck motor 152 which may advantageously be implemented by a stepping motor.
- the camera head 106 comprises a TV camera which picks up an image from a frame of the film 124a through the lens deck 114.
- the TV camera may advantageously be implemented by an imaging tube or a solid-state imaging device which delivers an R (red), G (green) and B (blue) or like color separation video signal to an output 151.
- the camera head 106 like the lens deck 114, is mounted on the housing of the apparatus to be reciprocable parallel to the optical axis 120 and so driven by a camera head motor 154, which may also be implemented by a stepping motor.
- the optical shutter 116 located on the optical axis 120 and in front of the head 108 prevents intense light issuing from the light source 104 from constantly entering an image pickup section of the head 106.
- the lens deck motor 152 and camera head motor 154 are commonly driven by a motor control circuit 156.
- the motor control circuit 156 comprises stepping motor drive amplifiers and a pulse counter circuit and, as will be described, drives the motors 152 and 154 each by a desired number of pulses as instructed by a central processing unit (CPU) 160, thereby moving the deck 114 and camera head 106 up and down.
- CPU central processing unit
- FIGS. 2A and 2B circuitry for sensing return positions of the head 106 and deck 114 and rotation angles of the motors 154 and 152 so as to feed them back to the motor drive 156 is not shown for simplicity.
- the motor driver 156 and the various output units such as the shutter 116, lens motor 150, image rotation motor 142, pressing solenoid 130 and filter motors 126 and 118 are controlled by the CPU 160.
- the motor driver 156 is directly connected to a system bus 158 which in turn is connected to the CPU 160, while the various output devices are connected to the system has 158 via drive amplifiers 162 - 172, respectively.
- the rotation angle of the motor and the position of the associated filter are sensed to be fed back to a control system 180, although circuitry therefor is not shown for simplicity.
- the film 124a supplied to the apparatus may even be in a configuration which is made up of a plurality of lengths of film, each having a plurality of exposed frames 12 and interconnected with the others by tapes 30, to provide a long continuous roll.
- a film in accordance with the preferred embodiment, is fed by a film feed mechanism 226 (see FIG. 9) which in turn is driven by a film motor 174 on the film carrier 122.
- the film motor 174 is connected to the bus 158 via a drive amplifier 176 to be controlled by the CPU 160.
- the frame position of the film 124a fed by the mechanism 226 is sensed by a film position sensor 228 and-fed back to the control system 180.
- the film position sensor 228 may sense a frame position in terms of a rotation angle of the film feed motor 174 and a return position of the film 124, or by counting the indications 20 and the like by means of the sensor 134.
- elongate films are available in JIS 135 type and 110 type.
- Each of the JIS 135 type and 110 type films is marketed as color and monochromatic films, and the color films as reversal type and negative type films.
- the 135 type film may be selectively exposed in half-size and full-size.
- such a kind and size of the film 124a are represented by a punched hole or holes 32 which are formed through the tapes 30.
- the holes 32 like the notches such as the notch 22, are sensed by the sensor 134 the output of which is routed to the bus 158 via a read amplifier 178.
- the brightness of the frame of the film 124a aligned with the optical axis 120 is sensed by the photometric element 132 whose output is applied to the bus 158 via a read amplifier 182.
- the apparatus of the present invention is controlled by the control system 180 which includes the CPU 160.
- the control system 180 comprises a storage 184 storing various data and programs, and input devices such as a keyboard 186 and a paper tape reader 188 for entering operator's instructions and data. These are interconnected by the system bus 158.
- the paper tape reader 188 is an optional unit adapted to read a paper tape punched with color compensation data and others beforehand, simultaneously with the feed of the film 124a.
- data indicative of frame orientation of image-carrying material 124 may be punched on a paper tape 189, which is read by tape reader 188 in time with image-carrying material 124.
- the data thus read is in turn stored into storage 184 under the control of CPU 160.
- a paper tape 189 other types of recording media, such as a magnetic tape, may advantageously be applicable to the system.
- a video signal produced by the camera head 106 propagates over the output line 151 via a switch 190 to a video circuit system 200.
- the switch 190 serves to route the video signal to a color compensation circuit 192 either directly or by way of a negative-to- positive (NP) inversion circuit 194.
- the switch 190 is connected to the bus 158 via a drive amplifier 196.
- the N P inversion circuit 194 when the film 124 on the carrier 122 is a negative, operates to invert the illuminance level of the video signal so as to convert the negative picture to positive one.
- a role assigned to the color compensation circuit 192 is compensating pictures in the frames of the film 124a, which possibly were shot under various exposure and/or illumination conditions different from standard ones, to gradations which are as close to standard ones as possible, thereby generating a video signal capable of reproducing an image that appear natural to eyes or analogous in color to a particular cameraman's intention.
- the output of the circuit 192 is applied to a record circuit 198.
- the color compensation circuit 192 fulfills the role of compensating the video signals representative of such photographic images with respect to colors.
- the record circuit 198 modulates the input video signal in frequency moduration (FM) or any other suitable modulation system, and applies the modulated signal to a magnetic head 208.
- An instruction for recording a video signal is delivered from the bus 158 to a signal line 220.
- the output of the record circuit 198 is also applied to a video monitor 212 such as a cathode ray tube (CRT).
- CRT cathode ray tube
- a magnetic disc 201 is detachably mounted on an output shaft 204 of a motor 202 so that the video signal applied from the record circuit 198 to the magnetic head 208 is selectively written into a plurality of tracks 206 of the disc 201.
- the motor 202 is powered by a power source 210 to rotate at a predetermined constant speed.
- the head 208 is supported by a transport mechanism which is driven by a drive amplifier 214, as schematically indicated by a dotted arrow 211, thereby being reciprocable in the radial direction of the disc 200 as instructed by the CPU 160. This allows the head 208 to select any of the tracks 206 for recording the video signal therein.
- a position of the head 208 is detected by a head position sensor 224 in terms of a rotation angle of its associated motor and a return position of the head and, then, fed back to the control system 180.
- the head position sensor 224 may detect an envelope of an output of the head 208, i.e. envelope tracking, as an auxiliary technique for the identification of a head position.
- the apparatus of the present invention may be provided with such an appearance as one shown in FIG. 3 by way of example.
- the apparatus comprises a desk-like housing 300.
- a keyboard 302 for entering color compensation instructions
- a keyboard 304 for entering the kinds and sizes of films, orientations of frames as well as record instructions and the like, a monitor devide 212, etc.
- the keyboards 302 and 304 in combination constitute the keyboard 186 shown in FIG. 2B.
- keyboards constituting keyboard 186 may be used for entering such data by the user who watches the picture shown on monitor display 212, rather than by means of punched tape 189 or notches 20 and 22.
- a recorded material mount section 312 inclusive of the film carrier 122, pressing elements 128 and sensor 134 is rotatable about the optical axis 120 relative to the housing top 320.
- the film 124a payed out from a reel or the like is fed over the mount section 312 by the film motor 174.
- the direction indicated by an arrow F be the forward direction.
- a lower section 306 of the housing 300 accommodates the optical system 100 inclusive of the light source 104 and light integrator 110 and its associated elements, while another lower portion 308 accommodates electronic circuitries inclusive of the control system 180. Still another lower portion 310 accommodates a recording arrangement inclusive of a deck for the magnetic disc 201.
- a photometric section 314 accommodating the photometric element 132 therein is disposed above the mount section 312. Disposed above the section 314 is the lens deck 114 and the camera head 106 which are supported by a column 322 to be movable up and down independently of each other.
- a second housing 320 is mounted on the desk top 320 and houses the video circuit system 200 therein.
- FIGS. 4A and 4B are a schematic functional block diagram of the control system 180 and its associated elements.
- the drawing mainly shows the functions of the control system 180 and designate those blocks which clearly correspond to the structural elements of FIG. 2 by the same reference numerals.
- an image pickup control 400 in the CPU 160 senses the punched hole or holes 32 of the connecting tape 30 by the sensor 134 to determine a kind and size of the film 124a.
- the operator manipulates the keyboard 186 to input the position of a frame of the film 124 to be recorded in the disc 201, selection data associated with the tracks 206, and other data according to requirement (406).
- the image pickup control 400 opens the shutter 116 to display a picture recorded in the specific frame on the video monitor 212.
- the operator is now allowed to operate the keyboard 186 while watching the monitor 212 in order to specify a particular frame which should be stored in the disc 201.
- the image pickup control 400 moves the camera head 106 and lens deck 114 so that a picture in a frame will be picked up in a correct state.
- a record control 404 performs film feed 174 based on the input data until the desired specific frame is brought to the image pickup station.
- the image pickup control 400 reads the notches 20 and the like formed at the edges 26 and 28 of the film 124a by means of the sensor 134, thereby identifying an orientation of a frame 12 located on the optical axis 120 (406).
- the record control 404 drives the head transport mechanism 211 to select empty one of the tracks 206 for recording a video signal (214).
- the storage 184 stores a conversion table 408 for the selection of the lens system 138 or 140 which depends upon the kind and size of the film 124a, and that of a distance or relative position between the camera head 106 and the lens deck 114 in the direction of the optical axis 120 in correspondence with the frame orientation and with a predetermined image pickup position of the film 124a on the film carrier 122 employed as a reference, or magnification previously discussed.
- FIGS. 4A and 4B schematically show the condition wherein conversion tables 408 are assigned in one-to-one correspondence to the kinds and the sizes of films 124a and stored in the storage 184.
- predetermined data are stored employing the positions of the lens deck 114 and camera head 106 associated with the horizontal frame 12a shown in FIG. 1A as a standard; as to the vertical frame 12c, positions of the lens deck 114 and camera head 106 which set up a magnification which is 0.74 times the magnification of the horizontal frame 12a are stored as the conversion table 408.
- the lens deck 114 and camera head 106 will be positioned such that a horizontal frame shown in FIG. 1A is picked up in a size about 2.09 times the standard position data and a vertical frame, in a size about 1.6 times the same, so that an image in the frame is picked up in a state similar to that of FIG. 1C.
- Such data are stored as the conversion table 408.
- the lens deck 114 and camera head 106 are positioned such that a horizontal frame shown in FIG. 1A is picked up in a size about 3.34 times the above-mentioned standard position data and a vertical frame, in a size about 2.57 times, they will be picked up in a condition similar to that of FIG. 1C and the data will be stored as the conversion table 408.
- any other kind of data may be used to allow frames to be picked up in the condition of FIG. 1B or one indicated by the dash-and-dot line 12e in FIG. 1C or in any of their intermediate conditions.
- three different conversion tables 408 may be assigned respectively to three different proportions of the area of the omitted portion 16 to the total area of the frame 12, i.e. 0%, 20% and 33%, and selectively used through the keyboard 186.
- One possible scheme is such that the apparatus is automatically conditioned for the 0% omission and the operator, observing the monitor 212, decides important part of the information appearing thereon so as to select a magnification which may result in substantial omission.
- the conversion table 408 further stores therein data indicative of standard illuminances which respectively are associated with magnifications of the frames of the film 124a.
- This kind of data are directed to illuminating the film 124a with an illuminance matching with a latitute of the camera head 106 for each of the magnifications with respect to a frame which was exposed under a standard shooting condition (adequate exposure), in view of the fact that a change in magnification entails a substantial change in the illuminance on the frame surface of the film 124a which is illuminated by the light source 104 as previously described.
- Any difference in illuminance due to deviation from a standard condition is further compensated for in response to an illuminance sensed by the photometric element 132. These compensations are accomplished by moving the ND filter 108 into and out of the optical axis 120.
- the image pickup control 400 searches for data associated with the positions of the camera head 106 and lens deck 114, selection of the lens system 138 or 140, orientation of the mirror box 136, and whether the filter 112 and/or NP inversion 194 is necessary, based on a kind and size of a film and an orientation of a frame which are entered in regard to the frame of the film 124a aligned with the optical axis 120.
- the image pickup control 400 drives the camera head motor 154, lens deck motor 152 and lens motor 150 so as to set up a specified magnification.
- This causes the lens system 138 or 140 to vary the magnification and focus such that the image is picked up in a correct top-bottom orientation and magnification, whatever the kind and size of the film or the frame orientation may be.
- an illumination control 402 drives the filter motor 126 to insert the orange mask compensation filter 126 while the record control 404 actuates the switch 190 to connect the NP inversion circuit 194 to the output line 151 of the camera head 106.
- the image rotation 412 is accomplished by rotating the mirror box 136 and, thereby, the light image incident to the head 106.
- the image rotation may be implemented by rotating the camera head 106, or by temporarily storing a video signal in a storage before supplying it to the record circuit 198 and then rotating the stored video signal.
- FIGS. 10A and 10B show an alternative embodiment in which image rotation is implemented by rotating camera head 106.
- image rotation motor 142 is adapted to drive camera head 106 in rotation in accordance with the frame orientation sensed into the system.
- Lens deck 114 does not have mirror box 136 as included in the embodiment shown in FIGS. 2A and 2B.
- the same reference numerals as in FIG. 1 denote the similar constituent elements to those of FIGS. 2A and 2B.
- FIGS. 11A and 11B show another alternative embodiment in which image rotation is effected by rotating recorded material mount section 312 which supports carrier 122.
- Mount section 312 is rotatably supported on housing 300, and is mechanically linked with image rotation motor 142 as symbolically depicted by a dotted line 143 in FIGS. 11A and 11B.
- Lens deck 114 does not include mirror box 136 as included in the embodiment shown in FIGS. 2A and 2B.
- Mount section 312 is driven in rotation by image rotation motor 142, when energized, in accordance with the frame orientation data entered into the system.
- FIGS. 12A and 12B show still another embodiment which includes a video storage 185 interconnected with system bus 158.
- Video storage 185 is adapted to store video signals produced from camera head 106 in the form of digital data.
- the video signal produced by camera head 106 is transmitted over line 151 via color compensation circuit 192 to an analog-to-digital conversion (ADC) circuit.
- ADC analog-to-digital conversion
- the video signal is converted into corresponding digital data by analog-to-digital converter 193 to be stored in video storage 185 under the control of CPU 160.
- CPU 160 performs image rotation and/or variable magnification of image on the video data stored in storage 185 in accordance with the data entered representative of frame orientation, size and type of recorded material 124.
- the resultant data is then read out from storage 185 to be converted into corresponding analog signal through digital-to-analog converter (DAC) 199 to be transmitted to record circuit 198 for recording on disk 201.
- DAC digital-to-analog converter
- FIGS. 12A and 12B does not include lens deck 114, image rotation motor 142 and amplifier 164 as involved in the embodiments shown and described before.
- the illumination control 402 measures an illuminance on the frame surface of the recorded material 124 by means of the photometric element 132 (410) substantially in parallel with the image rotation described above. Then, the illumination control 402 references the data associated with the magnification provided by the image pickup control 400 together with the photometric data so as to determine a position of the ND filter 108 relative to the optical axis 120, whereafter the film motor 118 is driven based on the so determined position of the filter 108, i.e. degree of insertion into the optical axis 120.
- the operator manipulates the keyboard 186 to enter color compensation data (422) while watching the video monitor 212.
- the color compensation data may, for example, be the data associated with a deviation from a standard condition.
- the record control 404 sets a condition for color compensation.
- color compensation is effected by a color compensation circuit 192 which adjusts the level of each color separation signal according to the condition decided by the circuit 192.
- the apparatus is now ready to pick up the image from the selected frame of the recorded material 124.
- the record control 404 drives the record circuit 198 for a one field period to record the video signal in empty one of the tracks 206 of the disc 201.
- the same procedure may be repeated to record an image in the next frame of the recorded material 124.
- the imaging operation particularly change of magnification, described above may be repeated every time the orientation of a frame is changed from one to another in the course of sequentially feed of frames of the film 124a.
- Such would consume a substantial period of time when images in a number of frames are desired to be recorded in numerous tracks on a magnetic disc.
- the illustrated embodiment is constructed to collectively record images which share a common orientation, thereby shortening the total period of time necessary for the recording operation.
- a single length of film 124a may have in mixture horizontally positioned frames 12f and vertically positioned frames 12h and 12g and, although not shown, the horizontal frames in opposite top-bottom orientations.
- the image pickup control 400 selects those horizontal frames which share one top-bottom orientation with respect to the forward film feed direction F, and the previously discussed image rotation and the change of magnification are so effected as to pick up the selected frames. Such selection is accomplished by sensing the notches 20 associated with the specific frames 12f (406).
- the record control 404 feeds the film 124a from its initial or home position HP in the forward direction F to sequentially pick up the images in the commonly oriented frames 12f one at a time in the pickup station. In the meantime, the record control 404 counts the frames of the moving film 124a using a counter section 432, FIG. 4B.
- video signals are recorded one frame (field) in each track 206 on the disc 201.
- FIG. 8 assume that video signals are to be recorded in the disc 201 sequentially from the radially outermost track #1 toward the innermost track #n. Then, while the horizontal frames 12f in the same top-bottom orientation are sequentially picked up as described, their video signals will be recorded in the disc skipping over the tracks 206 in correspondence with those frames which are in other orientations and intervene between the selected ones, e.g. frames 12g and 12h.
- the frames #1, #3 and #6 are sequentially picked up so that their video signals are sequentially recorded in the tracks #1, #2 and #6 shown in FIG. 8.
- the record control 404 counts the tracks on the disc 201 using a track counter section 430, FIG. 4.
- the record control 404 In the event of recording a video signal in a track 206, the record control 404 energizes a control line 220 for a one field period of video signals via the bus 158, thereby driving the record circuit 198. As a result, one field of video signal is written into the track 206. However, when the head 208 should skip a track 206 as previously mentioned, the record control 404 does not command the drive of the record circuit 198 and, instead, commands the head transport mechanism 211 to transport the head 208. Hence, even if a video signal representative of a frame which should be skipped over is supplied to record circuit 198, it fails to reach the head 198 and,-therefore, to be written into the skipped track.
- the record control 404 feeds the film 124a backward to the home position HP.
- the return of the film 124a to the home position HP is determined by decrementing a frame counter 432 in response to the backward feed.
- the head 208 is returned to the position where the track #1 is located. This is also determined by decrementing the track counter section 430 with the backward feed of the head 208. It will be apparent that the detection of a home position may be implemented by a device which mechanically senses the return of the film 124a or the head 208 to its home position.
- the image pickup control 400 selects those horizontal frames which share the other top-bottom orientation with respect to the forward film feed direction F to effect the imaging operation, particularly change of magnification, so as to pick them up.
- the selected frames are sequentially picked up in the sequence described above.
- the record control 404 operates such that the head 208 writes the resulting video signals in their associated tracks 206, i.e., the tracks which were skipped ver during the recording of the frames 12f.
- the record control 404 again returns the film 124a to the home position HP and the head 20 to the position of the track #1. Then, the image pickup control 400 selects those vertical frames 12g which are oriented in one direction with respect to the forward film feed direction F, and causes the image rotation and change of magnification in order to sequentially pick them up. Meanwhile, the record control 404 sequentially writes video signals representative of those frames in the tracks 206 assigned thereto, i.e., the tracks which were skipped over during the preceding recording processes.
- discrimination between the frames picked up and those not picked up yet is accomplished by identifying and counting the notches 20 and so on which are formed in the film 124a.
- the discrimination may be achieved by storing data in the storage 184.
- the record control 404 may be constructed to store in an area of the storage 184 data for discriminating the frames picked up from those not picked up yet, and data for discriminating the tracks stored video signals from those not stored yet, the film 124a and the head 208 being fed referencing such data.
- the present invention is applicable not only to photographic images stored in negative or positive films but also to those which are recorded in prints.
- the illumination system will be modified for reflection type illumination instead of the transmission type shown and described.
- a so-called print album which has numerous prints carried by an elongate holder is advantageously usable with the present invention.
- the kind and size of a film and the orientation of a frame are represented by the punched hole in the tape 30 between films 124a and the notch at the film edge 26 or 28.
- Another possible approach is recording data associated with respective frames in a paper tape or like separate recording medium so that the data may be read simultaneously with or independently of the feed of the frames. It will be apparent that all the operations may be effected by hand while displaying each frame on the monitor 212.
- data associated with frame orientations are contained in the notches each originally being adapted to indicate a center of a frame 12. If desired, however, exclusive notches may be utilized for the indication of frame orientations. Then, when a plurality of consecutive frames appear in an identical orientation, only the leading one of them may be provided with a notch indicative of the particular orientation with the rest of them considered having the same orientation. Such will be advantageous in preserving the mechanical strength of the film.
- Color compensation data may be recorded beforehand in the film 124a itself or in such an independent recording medium as a paper tape frame by frame, instead of being entered through the keyboard 186.
- magnification for any particular kind and size of a photographic image and frame orientation has been implemented by an optical system including the lens systems 138 and 140.
- it may be implemented by another kind of optical system for magnification such as a zoom lens or even by processing a signal stored in a storage adapted to tempolarily store video signals.
- the image rotation in particular which is adapted to convert the top-bottom orientation of an image consumes a shorter period of time than the change of magnification which accompanies the change between vertical and horizontal positions. For this reason, the embodiment shown and described has collectively picked up and recorded those frames which are in the same top-bottom orientation.
- the discrimination of the top-bottom orientations is not essential, that is, the magnification change and image rotation may be performed with respect to the vertical and horizontal positions disregarding the top-bottom orientations.
- the video signals produced in the manner described are recorded in the magnetic disc 201.
- Such does not limit the present invention, however. Only if a picture in a frame is picked up in a magnification and a top-bottom orientation which conform to a particular orientation of the frame and is developed in the form of video signal with color compensation and other processings optionally applied, it can eventually be reproduced by a video monitor in an adequate condition, whether it be stored in a recording medium or not.
- the present invention is capable of desirably reproducing an image in a frame on a video monitor whether it be read out of a recording medium or not, because the image is picked up in a magnification and a top-bottom orientation conforming to a frame orientation and because it is produced in the form of video signal with color compensation and other processings effected as desired.
Abstract
Description
- The present invention relates to a method of and apparatus for recording a photographic image and, more particularly, to a method of and apparatus for producing a video signal in a television signal format, for example, by picking up a frame which stores a photographic image therein, to record the video signal in a recording medium.
- There has been known an apparatus which picks up a photographic image, or picture, by use of an image pickup device to transform it into a raster-scan type video signal such as a television (TV) signal, and, then, records the video signal in a recording medium, e.g. magnetic disc, magnetic tape or optical disc. The photographic image may be any one of those stored in the frames of a negative or positive film, which may be colored or monochromatic, and those of prints, which may also be colored or monochromatic.
- The-stored video signal may be read out of such a recording medium to reproduce the image in the form of a soft copy on a video display such as a video monitor. Besides the soft copy, the video signal may be visualized in the form of a hard copy and is open to other various manners of later use.
- Films storing photographic images and applicable to a video signal producing apparatus of the type described include a roll of long film and a circular disc of film. The roll type film is marketed in various standards, such as full and half sizes of JIS (Japanese Industrial Standard) 135 type films and 110 type films, each having specific frames recordable with a length- to-width dimensional ratio particular thereto. That is, the size of a frame differs from one type of film to another over a wide range. In the case of printed pictures, or prints, they may be accommodated in a single elongate carrier so as to be supplied to the apparatus as a so-called print album. Besides such a continuous supply mode, prints may be supplied in a discrete, frame-by-frame mode.
- In any case, an image or picture of the kind described may be displayed on a video display as a TV picture in order to see it. A problem encountered here is due to the fact that an ordinary TV receiver or like video display which is generally usable as a monitor has a screen horizontally longer than vertically. Specifically, the standard screen of such a display has a horizontal-to-vertical dimensional ratio of 4:3, whereas the size of a photographic picture differs over a wide range and, in addition, images in some frames may be oriented vertically and those in some other frames horizontally, depending upon the selected position of a camera at the time of shooting. Furthermore, concerning the 135 type, full size-frames, for example, they may sometimes be exposed in one top-bottom orientation and sometimes in the other top-bottom orientation with respect to the lengthwise direction of the film, although all of them may be in vertical positions. Likewise, even horizontally positioned frames may differ in top-bottom orientation depending upon the kind of a camera used. In spite of any of such size and orientation situations, the pictures should always be displayed on the horizontally long screen of the display in a correct top-bottom orientation and in adequate dimensions without loosing essential portions thereof.
- In the case where images stored in the frames in various orientations as described above are picked up to record the resulting video signals in a recording medium, it is desirable that a number of frames be recorded within a shortest possible time in a predetermined sequence. Assuming a case wherein video signals produced from an elongate film are recorded in a magnetic disc, for example, it would be convenient that the video signals be recorded in the order of frames of the film with respect to the lengthwise direction in the consecutive tracks of the disc, considering convenient access to the tracks during playback. Although an image may be rotated and/or a magnification varied by some technique whenever a frame in an orientation different from preceding one appears, such consumes a substantial period of time for switching associated mechanisms and various processings and, thereby, increases the whole operation time. Especially, while the invertion of the top-bottom orientation may be implemented by an optical system and/or image processing within a relatively short time, the time required for a change of magnification associated with the vertical/ horizontal position is relatively long.
- It is therefore an object of the present invention to provide a method of and apparatus for recording within a minimum of time a video signal which allows a picture to be always adequately displayed on a horizontally long screen of a video display.
- In one aspect of the present invention, there is provided a method of recording photographic images by picking up a group of photographic images recorded in horizontal and vertical positions in substantially equally dimensioned frames to store in a storage medium video signals representative of the photographic images in the order of the group of photographic images. One of frame orientations which include at least the vertical and horizontal positions of the photographic images recorded in the respective frames is selected. Then, those photographic images which are in the selected one orientation is selected out of the group of photographic images. Relative rotation of the photographic images with respect to the selected one orientation is set. For the images in the vertical position, a magnification for formation of a video signal which is smaller than a magnification for the images in the horizontal position is set. The selected photographic image is picked up to store the video signal representative of the image in a store position of the storage medium which is assigned to the image. The selection, pickup and storage is performed on all the photographic images which are in the selected one frame orientation. The selection, rotation setting, magnification setting, pickup, and storage are performed on one of the remaining frame orientations, whereby the above procedure is repeated on the desired frame orientations.
- In another aspect of the present invention, there is provided an apparatus for recording a photographic image having image pickup means for picking up a group of photographic images which are stored in vertical and horizontal positions in a plurality of substantially equally dimensioned frames to form video signals representative of the photographic images, and recording means for recording the video signals in a storage medium in the order of the group of photographic images. First setting means sets relative rotation of the photographic images according to the frame orientations of the photographic images recorded in the respective frames which include at least vertical and horizontal positions. Second setting means sets, for the vertical images, a smaller magnification for formation of a video signal than a magnification for the horizontal images. Sensor means senses frame orientations of the respective photographic images in the group. Control means, which controls the image pickup device, recording means, first and second setting means, and sensor means, selects one of the frame orientations, identifies by the sensor means those photographic images which are in the selected one frame position out of the group of photographic images in the order of the photographic images in the group, causes the first setting means to relatively rotate the photographic images with respect to the selected one frame orientation, sets, for the vertical images, a smaller magnification for formation of a video signal than a magnification for horizontal images by the second setting means, causes the image pickup means to pick up the identified photographic image, causes the recording means to store the video signal representative of the photographic image in a store position of the storage medium which is assigned to the photographic image, causes the identification and pickup of the photographic image, and the storage of the video signal on all the photographic images which share the selected one frame orientation, and causes the identification, rotation setting, magnification setting, pickup, and storage on one of the remaining frame orientations, whereby the above procedure is repeated on the desired frame orientations.
- The objects and features of the present invention will become apparent from a consideration of the following detailed description taken in conjunction with the accompanying drawings in which:
- FIGS. 1A - 1D are schematic diagrams useful for understanding the principles of the present invention;
- FIGS. 2A and 2B, when combined as shown in FIG. 2, are a partially schematic block diagram of a video signal recording apparatus embodying the present invention;
- FIG. 3 is a perspective external view of the apparatus in accordance with the present invention;
- FIGS. 4A and 4B, when combined as shown in FIG. 4, are a functional block diagram of a control system and its associated elements included in the apparatus of FIG. 2;
- FIGS. 5, 6 and 7 are plan views showing examplary forms of photographic images which are applicable to the apparatus of the present invention;
- FIG. 8 is a plan view showing a magnetic disc applicable to the apparatus shown in FIG. 2;
- FIG. 9 is a schematic block diagram showing details of the record control and its associated elements shown in FIG. 2;
- FIGS. 10A, 10B, 11A, 11B and 12A, 12B, when combined as shown in FIGS. 10, 11 and 12, respectively, are partially schematic block diagrams showing alternative embodiments of the invention; and
- FIGS. 13A and 13B, when combined as shown in FIG. 13, show operational flows executed by the control system included in the embodiments shown in FIGS. 2A, 2B, 10A, 10B, 11A, 11B, and 12A, 12B for recording video signals associated with photographic images in accordance with the present invention.
- Referring to FIGS. 1A - 1D of the drawings, a
dotted line 10 represents an effective picture area of a video display in which a video signal representative of a picture in a standard TV signal format is reproducible. The standard vertical-to-horizontal dimensional ratio of the effective picture area is 3:4.Solid lines - In FIG. lA, the horizontal width of the
frame 12a which is horizontally positioned is substantially equal to that of theeffective picture area 10 and theframe 12a is entirely included in thearea 10. Therefore,narrow regions 14 indicated by leftwardly upward hatching remain blank with no video information appearing therein. - In FIG. 1B, the height of the
frame 12b which is in a horizontal position is substantially equal to that of theeffective picture area 10, so that thosenarrow portions 16 of the picture which are indicated by rightwardly upward hatching are omitted without being displayed. Nevertheless, since the finder of a camera has a field which is usually designed with a substantial margin for safety purpose, it is improbable that such an amount of omission leads to loosing video information which is stored in essential part of the picture. - Assuming that the magnification of image in FIG. 1A is "1", the magnification in FIG. 1B is about 1.14 times that of FIG. 1A.
- In FIG. 1C, the height of the
frame 12c which is vertically positioned is substantially equal to that of theeffective picture area 10, the whole frame 22c being included in thearea 10. Therefore, the regions 14 of thearea 10 indicated by leftwardly upward hatching remain blank; the total area of theregions 14 is 50% of thearea 10. The magnification in FIG. 1C is about 0.74 times that of FIG. 1A. - Where the
vertical frame 12d is displayed with the same magnification as that of FIG. 1A, as shown in FIG. 1D, thoseportions 16 of theframe 12d indicated by rightwardly upward hatching are omitted while theregions 14 of theeffective picture area 10 indicated by leftwardly upward hatching remain blank. Then, the omitted area of theframe 12d amounts to about 25% of the total frame area, and theblank region 14 to about 33% of thearea 10. The result is the omission of about one fourth of the whole video information which is carried by the picture and loosing such a proportion of essential part of the video information is of course undesirable. - In accordance with the illustrative embodiment, a horizontal picture is converted into a video signal in the condition shown in FIG. 1A or 1B. A vertical picture, on the other hand, is processed in the condition indicated by the
solid line 12c in FIG. 1C or in a condition similar thereto as indicated by a dash-and-dot line 12e, i.e., a condition which allows hardly, any of the essential part of the picture to be lost. A vertical picture is, therefore, picked up in a magnification smaller than that of a horizontal picture. It will thus be understood that the ratio of the area of the omittedregions 16 to the total area of theframe 12 should acceptably be about 25% or less, preferably about 20% or less, and optimumly substantially 0%. - Referring to FIGS. 2A and 2B, the apparatus of the present invention includes an optical system, generally indicated by
reference numeral 100, which extends from alight source 104 driven by alamp power source 102 to avideo camera head 106. Arranged sequentially on theoptical axis 120 are anND filter 108, alight integrator 110, acolor compensation filter 112, alens deck 114 and anoptical shutter 116. - The
ND filter 108 is an optical wedge filter whose optical density steplessly changes and is driven by afilter motor 118 in a plane perpendicular to theoptical axis 120 to move into and out of theoptical axis 120, thereby changing the illuminance of light passing therethrough. Thefilter 112, on the other hand, serves as a color compensation filter for removing orange when a negative film applied with an orange mask is used with the apparatus, as will be described. When required, thefilter 112 is driven by afilter motor 126 into theoptical axis 120 in a plane perpendicular to theoptical axis 120. - A visual-image recorded
material 124, such as film or print, supported by acarrier 122 is located in a predetermined position between thefilter 112 and thelens deck 114 as illustrated, so that any desired frame of the recordedmaterial 124 may be illuminated by an illumination system. The recordedmaterial 124 may be film supplied in any desired configuration such as in a roll or a disc. Concerning a roll type film, for example, use may be made of a negative film or a positive film, whether it be color or monochromatic, in any possible standard such as the JIS 135 type full- or half-size, or the 110 type. Where recordedmaterial 124 comprises a transparent type film, the illumination system is arranged so as to have the illuminating rays emitted therefrom pass the film intolens deck 114. If a print is used as recordedmaterial 124, then the illumination system is so disposed as to direct the rays emanating therefrom to the print, on which the reflected rays go in turn intolens deck 114. - The frame of the image-carrying
material 124 to be picked up is fixed in place in a predetermined pickup station by pressingmembers 128, which are actuated by asolenoid 130. Aphotometric element 132 is responsive to an illuminance of the frame. - As shown in FIG. 5, the
film 124a used as image-carryingmaterial 124 with the illustrative embodiment may comprise a 135 type film which was exposed in a full-size. In FIG. 5, thefilm 124a is formed withnotches opposite edges notch 20 having a predetermined shape is formed at oneedge 26 of thefilm 124a in alignment with aframe 12f which was exposed horizontally in a given top-bottom orientation with respect to a predetermined longitudinal direction, e.g. a direction indicated by an arrow F. Anotch 22 having another shape is formed at theother edge 28 in alignment with aframe 12g which was exposed in a vertical position in a given top-bottom orientation, and anotch 24 different in shape from the notch 11 is formed at theedge 28 in alignment with aframe 12h which was exposed in a vertical position but in the opposite top-bottom orientation to theframe 12g. - Likewise, a notch, not shown, having a predetermined shape different from that of the
notch 20 is associated with a frame (not shown) which was exposed in a horizontal position but in the opposite top-bottom orientation to theframe 12f. - The position and shape of a notch such as the
notch 20 is sensed by afilm sensor 134 so that a particular orientation of an image in a frame such as theframe 12f is identified. Naturally, the identification of a frame orientation may be implemented by a number of notches, instead of the shape. - The
lens deck 114 accommodates therein an image rotatingmirror box 136 and, in this particular embodiment, twolens systems mirror box 136 is provided with threemirrors image rotating motor 142 over an angular range of more than 270 degrees about theoptical axis 120 relative to thedeck 114. This allows an image in a frame of thefilm 124 to become incident to thecamera head 106 in a position rotated within the range of at least 270 degrees. - In the illustrative embodiment, the
lens systems optical axis 120 depending upon the size of thefilm 124a. For example, where thefilm 124a is of the 135 type, thelens system 138 will be selected and, where it is of the 110 type or the disc type, thelens system 140. - The
lens deck 114 is mounted on a housing of the apparatus in such a manner as to be reciprocable parallel to theoptical axis 120. The reciprocation of thelens deck 114 is effected by alens deck motor 152 which may advantageously be implemented by a stepping motor. - The
camera head 106 comprises a TV camera which picks up an image from a frame of thefilm 124a through thelens deck 114. The TV camera may advantageously be implemented by an imaging tube or a solid-state imaging device which delivers an R (red), G (green) and B (blue) or like color separation video signal to anoutput 151. Thecamera head 106, like thelens deck 114, is mounted on the housing of the apparatus to be reciprocable parallel to theoptical axis 120 and so driven by acamera head motor 154, which may also be implemented by a stepping motor. Theoptical shutter 116 located on theoptical axis 120 and in front of thehead 108 prevents intense light issuing from thelight source 104 from constantly entering an image pickup section of thehead 106. - The
lens deck motor 152 andcamera head motor 154 are commonly driven by amotor control circuit 156. Themotor control circuit 156 comprises stepping motor drive amplifiers and a pulse counter circuit and, as will be described, drives themotors deck 114 andcamera head 106 up and down. In FIGS. 2A and 2B, circuitry for sensing return positions of thehead 106 anddeck 114 and rotation angles of themotors motor drive 156 is not shown for simplicity. - The
motor driver 156 and the various output units such as theshutter 116,lens motor 150,image rotation motor 142, pressingsolenoid 130 and filtermotors CPU 160. Themotor driver 156 is directly connected to asystem bus 158 which in turn is connected to theCPU 160, while the various output devices are connected to the system has 158 via drive amplifiers 162 - 172, respectively. In the event of movement of theorange mask filter 112 driven by thefilter motor 126 or that of theND filter 108 driven by thefilter motor 118, the rotation angle of the motor and the position of the associated filter are sensed to be fed back to acontrol system 180, although circuitry therefor is not shown for simplicity. - Now, as shown in FIG. 6, the
film 124a supplied to the apparatus may even be in a configuration which is made up of a plurality of lengths of film, each having a plurality of exposedframes 12 and interconnected with the others bytapes 30, to provide a long continuous roll. Such a film, in accordance with the preferred embodiment, is fed by a film feed mechanism 226 (see FIG. 9) which in turn is driven by afilm motor 174 on thefilm carrier 122. Thefilm motor 174 is connected to thebus 158 via adrive amplifier 176 to be controlled by theCPU 160. - As shown in FIG. 9, the frame position of the
film 124a fed by themechanism 226 is sensed by afilm position sensor 228 and-fed back to thecontrol system 180. Thefilm position sensor 228 may sense a frame position in terms of a rotation angle of thefilm feed motor 174 and a return position of thefilm 124, or by counting theindications 20 and the like by means of thesensor 134. - As previously discussed, elongate films are available in JIS 135 type and 110 type. Each of the JIS 135 type and 110 type films is marketed as color and monochromatic films, and the color films as reversal type and negative type films. Further, the 135 type film may be selectively exposed in half-size and full-size.. In this particular embodiment, as shown in FIG. 6, such a kind and size of the
film 124a are represented by a punched hole or holes 32 which are formed through thetapes 30. Theholes 32, like the notches such as thenotch 22, are sensed by thesensor 134 the output of which is routed to thebus 158 via aread amplifier 178. - The brightness of the frame of the
film 124a aligned with theoptical axis 120 is sensed by thephotometric element 132 whose output is applied to thebus 158 via aread amplifier 182. - The apparatus of the present invention is controlled by the
control system 180 which includes theCPU 160. As shown, thecontrol system 180 comprises astorage 184 storing various data and programs, and input devices such as akeyboard 186 and apaper tape reader 188 for entering operator's instructions and data. These are interconnected by thesystem bus 158. Thepaper tape reader 188 is an optional unit adapted to read a paper tape punched with color compensation data and others beforehand, simultaneously with the feed of thefilm 124a. In an alternative embodiment, data indicative of frame orientation of image-carryingmaterial 124 may be punched on apaper tape 189, which is read bytape reader 188 in time with image-carryingmaterial 124. The data thus read is in turn stored intostorage 184 under the control ofCPU 160. In place of, or in addition to, apaper tape 189, other types of recording media, such as a magnetic tape, may advantageously be applicable to the system. - A video signal produced by the
camera head 106 propagates over theoutput line 151 via aswitch 190 to avideo circuit system 200. Theswitch 190 serves to route the video signal to acolor compensation circuit 192 either directly or by way of a negative-to- positive (NP)inversion circuit 194. Theswitch 190 is connected to thebus 158 via adrive amplifier 196. - The NP inversion circuit 194, when the
film 124 on thecarrier 122 is a negative, operates to invert the illuminance level of the video signal so as to convert the negative picture to positive one. A role assigned to thecolor compensation circuit 192 is compensating pictures in the frames of thefilm 124a, which possibly were shot under various exposure and/or illumination conditions different from standard ones, to gradations which are as close to standard ones as possible, thereby generating a video signal capable of reproducing an image that appear natural to eyes or analogous in color to a particular cameraman's intention. The output of thecircuit 192 is applied to arecord circuit 198. - Many of photographic images applicable to the apparatus of the present invention are recorded under various shooting conditions. Especially, shooting conditions under which negatives are exposed by amateurs considerably vary film by film or even frame by frame. It is desirable that video signals with optical density (gradation) and colors of an image compensated to standard or substantially standard ones be generated even from such films which were exposed under the widely scattering conditions. The
color compensation circuit 192 fulfills the role of compensating the video signals representative of such photographic images with respect to colors. - When a video signal with so compensated density and colors is reproduced on a video monitor, the picture will appear almost natural to eyes or with a special effect approximate to one which was intended by a cameraman. If video signals undergone such compensation are stored in a storage medium and the medium is supplied to a user, it is possible for the user to reproduce a picture thereout of in substantially natural conditions or specific intended conditions.
- The
record circuit 198 modulates the input video signal in frequency moduration (FM) or any other suitable modulation system, and applies the modulated signal to amagnetic head 208. An instruction for recording a video signal is delivered from thebus 158 to asignal line 220. The output of therecord circuit 198 is also applied to avideo monitor 212 such as a cathode ray tube (CRT). - In the illustrated apparatus, a
magnetic disc 201 is detachably mounted on anoutput shaft 204 of amotor 202 so that the video signal applied from therecord circuit 198 to themagnetic head 208 is selectively written into a plurality oftracks 206 of thedisc 201. Themotor 202 is powered by apower source 210 to rotate at a predetermined constant speed. - The
head 208 is supported by a transport mechanism which is driven by adrive amplifier 214, as schematically indicated by adotted arrow 211, thereby being reciprocable in the radial direction of thedisc 200 as instructed by theCPU 160. This allows thehead 208 to select any of thetracks 206 for recording the video signal therein. A position of thehead 208 is detected by ahead position sensor 224 in terms of a rotation angle of its associated motor and a return position of the head and, then, fed back to thecontrol system 180. In addition to the detection of a rotation angle of the motor associated with thefeed mechanism 211 and a return position of thehead 208, thehead position sensor 224 may detect an envelope of an output of thehead 208, i.e. envelope tracking, as an auxiliary technique for the identification of a head position. - The apparatus of the present invention may be provided with such an appearance as one shown in FIG. 3 by way of example. The apparatus comprises a desk-
like housing 300. Arranged on the top 320 of thehousing 300 are akeyboard 302 for entering color compensation instructions, akeyboard 304 for entering the kinds and sizes of films, orientations of frames as well as record instructions and the like, amonitor devide 212, etc. Thekeyboards keyboard 186 shown in FIG. 2B. - When
optical system 100 is loaded with film or print 124 which carries no data, in the form ofnotches keyboards constituting keyboard 186 may be used for entering such data by the user who watches the picture shown onmonitor display 212, rather than by means of punchedtape 189 ornotches - A recorded
material mount section 312 inclusive of thefilm carrier 122,pressing elements 128 andsensor 134 is rotatable about theoptical axis 120 relative to thehousing top 320. As indicated by dash-and-dots line in FIG. 3, thefilm 124a payed out from a reel or the like is fed over themount section 312 by thefilm motor 174. Here, let the direction indicated by an arrow F be the forward direction. - A
lower section 306 of thehousing 300 accommodates theoptical system 100 inclusive of thelight source 104 andlight integrator 110 and its associated elements, while anotherlower portion 308 accommodates electronic circuitries inclusive of thecontrol system 180. Still anotherlower portion 310 accommodates a recording arrangement inclusive of a deck for themagnetic disc 201. - A
photometric section 314 accommodating thephotometric element 132 therein is disposed above themount section 312. Disposed above thesection 314 is thelens deck 114 and thecamera head 106 which are supported by acolumn 322 to be movable up and down independently of each other. Asecond housing 320 is mounted on thedesk top 320 and houses thevideo circuit system 200 therein. - The operation of the apparatus in accordance with the present invention will be described with reference to FIGS. 4A and 4B which are a schematic functional block diagram of the
control system 180 and its associated elements. The drawing mainly shows the functions of thecontrol system 180 and designate those blocks which clearly correspond to the structural elements of FIG. 2 by the same reference numerals. - When the
film 124a is laid on thefilm carrier 122 of themount section 312, animage pickup control 400 in theCPU 160 senses the punched hole or holes 32 of the connectingtape 30 by thesensor 134 to determine a kind and size of thefilm 124a. The operator manipulates thekeyboard 186 to input the position of a frame of thefilm 124 to be recorded in thedisc 201, selection data associated with thetracks 206, and other data according to requirement (406). - Then, as the operator enters an instruction for opening the
shutter 116 via thekeyboard 186, theimage pickup control 400 opens theshutter 116 to display a picture recorded in the specific frame on thevideo monitor 212. The operator is now allowed to operate thekeyboard 186 while watching themonitor 212 in order to specify a particular frame which should be stored in thedisc 201. Before such operator's manipulation, theimage pickup control 400 moves thecamera head 106 andlens deck 114 so that a picture in a frame will be picked up in a correct state. - A
record control 404 performs film feed 174 based on the input data until the desired specific frame is brought to the image pickup station. At this instant, theimage pickup control 400 reads thenotches 20 and the like formed at theedges film 124a by means of thesensor 134, thereby identifying an orientation of aframe 12 located on the optical axis 120 (406). Further, therecord control 404 drives thehead transport mechanism 211 to select empty one of thetracks 206 for recording a video signal (214). - Now, the
storage 184 stores a conversion table 408 for the selection of thelens system film 124a, and that of a distance or relative position between thecamera head 106 and thelens deck 114 in the direction of theoptical axis 120 in correspondence with the frame orientation and with a predetermined image pickup position of thefilm 124a on thefilm carrier 122 employed as a reference, or magnification previously discussed. FIGS. 4A and 4B schematically show the condition wherein conversion tables 408 are assigned in one-to-one correspondence to the kinds and the sizes offilms 124a and stored in thestorage 184. - For example, in the case of a JIS 135 type full-size film, predetermined data are stored employing the positions of the
lens deck 114 andcamera head 106 associated with thehorizontal frame 12a shown in FIG. 1A as a standard; as to thevertical frame 12c, positions of thelens deck 114 andcamera head 106 which set up a magnification which is 0.74 times the magnification of thehorizontal frame 12a are stored as the conversion table 408. - Concerning a JIS 135 type half-size film, assume that the positions of the
lens deck 114 andcamera head 106 associated with thehorizontal frame 12a shown in FIG. 1A is the standard. Then, the whole horizontal frame will be picked up in theeffective picture area 10 if thelens deck 114 andcamera head 106 are so positioned as to provide a magnification which is about 1.51 times the standard; a vertical frame will be picked up in a condition similar to that of FIG. 1C if they are so positioned as to provide a magnification which is about 1.14 times the standard. Such data are stored as the conversion table 408. - Likewise, as for a 110 type film, the
lens deck 114 andcamera head 106 will be positioned such that a horizontal frame shown in FIG. 1A is picked up in a size about 2.09 times the standard position data and a vertical frame, in a size about 1.6 times the same, so that an image in the frame is picked up in a state similar to that of FIG. 1C. Such data are stored as the conversion table 408. - Further, as for the disc film, if the
lens deck 114 andcamera head 106 are positioned such that a horizontal frame shown in FIG. 1A is picked up in a size about 3.34 times the above-mentioned standard position data and a vertical frame, in a size about 2.57 times, they will be picked up in a condition similar to that of FIG. 1C and the data will be stored as the conversion table 408. - Naturally, the data described above are only illustrative and do not limit the present invention. That is, any other kind of data may be used to allow frames to be picked up in the condition of FIG. 1B or one indicated by the dash-and-dot line 12e in FIG. 1C or in any of their intermediate conditions. For example, three different conversion tables 408 may be assigned respectively to three different proportions of the area of the omitted
portion 16 to the total area of theframe 12, i.e. 0%, 20% and 33%, and selectively used through thekeyboard 186. One possible scheme is such that the apparatus is automatically conditioned for the 0% omission and the operator, observing themonitor 212, decides important part of the information appearing thereon so as to select a magnification which may result in substantial omission. - The conversion table 408 further stores therein data indicative of standard illuminances which respectively are associated with magnifications of the frames of the
film 124a. This kind of data are directed to illuminating thefilm 124a with an illuminance matching with a latitute of thecamera head 106 for each of the magnifications with respect to a frame which was exposed under a standard shooting condition (adequate exposure), in view of the fact that a change in magnification entails a substantial change in the illuminance on the frame surface of thefilm 124a which is illuminated by thelight source 104 as previously described. Any difference in illuminance due to deviation from a standard condition is further compensated for in response to an illuminance sensed by thephotometric element 132. These compensations are accomplished by moving theND filter 108 into and out of theoptical axis 120. - The
image pickup control 400, referencing the conversion table 408 in thestorage 184, searches for data associated with the positions of thecamera head 106 andlens deck 114, selection of thelens system mirror box 136, and whether thefilter 112 and/orNP inversion 194 is necessary, based on a kind and size of a film and an orientation of a frame which are entered in regard to the frame of thefilm 124a aligned with theoptical axis 120. - In response to the searched data, the
image pickup control 400 drives thecamera head motor 154,lens deck motor 152 andlens motor 150 so as to set up a specified magnification. This causes thelens system film 124a is of the negative type, anillumination control 402 drives thefilter motor 126 to insert the orangemask compensation filter 126 while therecord control 404 actuates theswitch 190 to connect theNP inversion circuit 194 to theoutput line 151 of thecamera head 106. - Another role assigned to the
image pickup control 400 is theimage rotation 412. In this particular embodiment, theimage rotation 412 is accomplished by rotating themirror box 136 and, thereby, the light image incident to thehead 106. Alternatively, the image rotation may be implemented by rotating thecamera head 106, or by temporarily storing a video signal in a storage before supplying it to therecord circuit 198 and then rotating the stored video signal. - FIGS. 10A and 10B show an alternative embodiment in which image rotation is implemented by rotating
camera head 106. In the embodiment,image rotation motor 142 is adapted to drivecamera head 106 in rotation in accordance with the frame orientation sensed into the system.Lens deck 114, therefore, does not havemirror box 136 as included in the embodiment shown in FIGS. 2A and 2B. In the figures, the same reference numerals as in FIG. 1 denote the similar constituent elements to those of FIGS. 2A and 2B. - FIGS. 11A and 11B show another alternative embodiment in which image rotation is effected by rotating recorded
material mount section 312 which supportscarrier 122.Mount section 312 is rotatably supported onhousing 300, and is mechanically linked withimage rotation motor 142 as symbolically depicted by a dottedline 143 in FIGS. 11A and 11B.Lens deck 114, therefore, does not includemirror box 136 as included in the embodiment shown in FIGS. 2A and 2B.Mount section 312 is driven in rotation byimage rotation motor 142, when energized, in accordance with the frame orientation data entered into the system. - FIGS. 12A and 12B show still another embodiment which includes a
video storage 185 interconnected withsystem bus 158.Video storage 185 is adapted to store video signals produced fromcamera head 106 in the form of digital data. The video signal produced bycamera head 106 is transmitted overline 151 viacolor compensation circuit 192 to an analog-to-digital conversion (ADC) circuit. The video signal is converted into corresponding digital data by analog-to-digital converter 193 to be stored invideo storage 185 under the control ofCPU 160.CPU 160 performs image rotation and/or variable magnification of image on the video data stored instorage 185 in accordance with the data entered representative of frame orientation, size and type of recordedmaterial 124. The resultant data, thus converted in frame orientation and/or magnification, is then read out fromstorage 185 to be converted into corresponding analog signal through digital-to-analog converter (DAC) 199 to be transmitted torecord circuit 198 for recording ondisk 201. The embodiment shown in FIGS. 12A and 12B does not includelens deck 114,image rotation motor 142 andamplifier 164 as involved in the embodiments shown and described before. - Now returning to FIGS. 2A, 2B and 4A, 4B, the
illumination control 402 measures an illuminance on the frame surface of the recordedmaterial 124 by means of the photometric element 132 (410) substantially in parallel with the image rotation described above. Then, theillumination control 402 references the data associated with the magnification provided by theimage pickup control 400 together with the photometric data so as to determine a position of theND filter 108 relative to theoptical axis 120, whereafter thefilm motor 118 is driven based on the so determined position of thefilter 108, i.e. degree of insertion into theoptical axis 120. - After the
camera head 106 has correctly picked up the frame of the recordedmaterial 124 in the above described manner, the operator manipulates thekeyboard 186 to enter color compensation data (422) while watching thevideo monitor 212. The color compensation data may, for example, be the data associated with a deviation from a standard condition. In response to the color compensation data, therecord control 404 sets a condition for color compensation. In the illustrative embodiment, color compensation is effected by acolor compensation circuit 192 which adjusts the level of each color separation signal according to the condition decided by thecircuit 192. By recording a video signal undergone such color compensation in thedisc 201, it is possible to reproduce from the disc 201 a picture in colors which appear substantially natural or analogous to those intended by the cameraman. - The apparatus is now ready to pick up the image from the selected frame of the recorded
material 124. As the operator manipulates a record command key on thekeyboard 186, therecord control 404 drives therecord circuit 198 for a one field period to record the video signal in empty one of thetracks 206 of thedisc 201. Upon completion of the recording, the same procedure may be repeated to record an image in the next frame of the recordedmaterial 124. - The imaging operation, particularly change of magnification, described above may be repeated every time the orientation of a frame is changed from one to another in the course of sequentially feed of frames of the
film 124a. Such, however, would consume a substantial period of time when images in a number of frames are desired to be recorded in numerous tracks on a magnetic disc. In light of this, the illustrated embodiment is constructed to collectively record images which share a common orientation, thereby shortening the total period of time necessary for the recording operation. - As shown in FIG. 7, particularly by the arrows, a single length of
film 124a may have in mixture horizontally positionedframes 12f and vertically positionedframes image pickup control 400 selects those horizontal frames which share one top-bottom orientation with respect to the forward film feed direction F, and the previously discussed image rotation and the change of magnification are so effected as to pick up the selected frames. Such selection is accomplished by sensing thenotches 20 associated with thespecific frames 12f (406). - In the above condition, the
record control 404 feeds thefilm 124a from its initial or home position HP in the forward direction F to sequentially pick up the images in the commonly orientedframes 12f one at a time in the pickup station. In the meantime, therecord control 404 counts the frames of the movingfilm 124a using acounter section 432, FIG. 4B. - In the recording station, on the other hand, video signals are recorded one frame (field) in each
track 206 on thedisc 201. As shown in FIG. 8, assume that video signals are to be recorded in thedisc 201 sequentially from the radiallyoutermost track # 1 toward the innermost track #n. Then, while thehorizontal frames 12f in the same top-bottom orientation are sequentially picked up as described, their video signals will be recorded in the disc skipping over thetracks 206 in correspondence with those frames which are in other orientations and intervene between the selected ones, e.g. frames 12g and 12h. Specifically, in the example shown in FIG. 7, theframes # 1, #3 and #6 are sequentially picked up so that their video signals are sequentially recorded in thetracks # 1, #2 and #6 shown in FIG. 8. In this instance, therecord control 404 counts the tracks on thedisc 201 using atrack counter section 430, FIG. 4. - In the event of recording a video signal in a
track 206, therecord control 404 energizes acontrol line 220 for a one field period of video signals via thebus 158, thereby driving therecord circuit 198. As a result, one field of video signal is written into thetrack 206. However, when thehead 208 should skip atrack 206 as previously mentioned, therecord control 404 does not command the drive of therecord circuit 198 and, instead, commands thehead transport mechanism 211 to transport thehead 208. Hence, even if a video signal representative of a frame which should be skipped over is supplied torecord circuit 198, it fails to reach thehead 198 and,-therefore, to be written into the skipped track. - After one unit of images have been picked up in the manner described, the
record control 404 feeds thefilm 124a backward to the home position HP. The return of thefilm 124a to the home position HP is determined by decrementing aframe counter 432 in response to the backward feed. Likewise, thehead 208 is returned to the position where thetrack # 1 is located. This is also determined by decrementing thetrack counter section 430 with the backward feed of thehead 208. It will be apparent that the detection of a home position may be implemented by a device which mechanically senses the return of thefilm 124a or thehead 208 to its home position. - Thereafter, the
image pickup control 400 selects those horizontal frames which share the other top-bottom orientation with respect to the forward film feed direction F to effect the imaging operation, particularly change of magnification, so as to pick them up. The selected frames are sequentially picked up in the sequence described above. This time, therecord control 404 operates such that thehead 208 writes the resulting video signals in their associatedtracks 206, i.e., the tracks which were skipped ver during the recording of theframes 12f. - The
record control 404 again returns thefilm 124a to the home position HP and thehead 20 to the position of thetrack # 1. Then, theimage pickup control 400 selects thosevertical frames 12g which are oriented in one direction with respect to the forward film feed direction F, and causes the image rotation and change of magnification in order to sequentially pick them up. Meanwhile, therecord control 404 sequentially writes video signals representative of those frames in thetracks 206 assigned thereto, i.e., the tracks which were skipped over during the preceding recording processes. - The same procedure is effected also on those
vertical frames 12h which are in the other top-bottom orientation, thereby completely picking up and recording all the units of frames. The video signals representative of all theframes 12 are now stored in the associatedtracks 206 of thedisc 201 in the order of the frames in thefilm 124a. - The above-discussed operations of the recording system in accordance with the present invention are summarily shown in a flow chart of FIG. 13A and 13B.
- In the illustrative embodiment, discrimination between the frames picked up and those not picked up yet is accomplished by identifying and counting the
notches 20 and so on which are formed in thefilm 124a. Alternatively, the discrimination may be achieved by storing data in thestorage 184. For example, therecord control 404 may be constructed to store in an area of thestorage 184 data for discriminating the frames picked up from those not picked up yet, and data for discriminating the tracks stored video signals from those not stored yet, thefilm 124a and thehead 208 being fed referencing such data. - Various changes and modifications will become possible for those skilled in the art after receiving the teachings of the present disclosure without departing from the scope thereof. For example, the present invention is applicable not only to photographic images stored in negative or positive films but also to those which are recorded in prints. In that case, the illumination system will be modified for reflection type illumination instead of the transmission type shown and described. Also, a so-called print album which has numerous prints carried by an elongate holder is advantageously usable with the present invention.
- In the preferred embodiment, the kind and size of a film and the orientation of a frame are represented by the punched hole in the
tape 30 betweenfilms 124a and the notch at thefilm edge monitor 212. - In the illustrative embodiment, data associated with frame orientations are contained in the notches each originally being adapted to indicate a center of a
frame 12. If desired, however, exclusive notches may be utilized for the indication of frame orientations. Then, when a plurality of consecutive frames appear in an identical orientation, only the leading one of them may be provided with a notch indicative of the particular orientation with the rest of them considered having the same orientation. Such will be advantageous in preserving the mechanical strength of the film. - Color compensation data, too, may be recorded beforehand in the
film 124a itself or in such an independent recording medium as a paper tape frame by frame, instead of being entered through thekeyboard 186. - The magnification for any particular kind and size of a photographic image and frame orientation has been implemented by an optical system including the
lens systems - The image rotation in particular, which is adapted to convert the top-bottom orientation of an image consumes a shorter period of time than the change of magnification which accompanies the change between vertical and horizontal positions. For this reason, the embodiment shown and described has collectively picked up and recorded those frames which are in the same top-bottom orientation. However, the discrimination of the top-bottom orientations is not essential, that is, the magnification change and image rotation may be performed with respect to the vertical and horizontal positions disregarding the top-bottom orientations.
- In the embodiment shown and described, the video signals produced in the manner described are recorded in the
magnetic disc 201. Such does not limit the present invention, however. Only if a picture in a frame is picked up in a magnification and a top-bottom orientation which conform to a particular orientation of the frame and is developed in the form of video signal with color compensation and other processings optionally applied, it can eventually be reproduced by a video monitor in an adequate condition, whether it be stored in a recording medium or not. - In summary, it will be seen that the present invention is capable of desirably reproducing an image in a frame on a video monitor whether it be read out of a recording medium or not, because the image is picked up in a magnification and a top-bottom orientation conforming to a frame orientation and because it is produced in the form of video signal with color compensation and other processings effected as desired.
Claims (18)
CHARACTERIZED IN THAT
said method comprises the steps of:
CHARACTERIZED BY
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP248082/83 | 1983-12-30 | ||
JP58248082A JPS60144082A (en) | 1983-12-30 | 1983-12-30 | Method and apparatus for recording photographic picture |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0149257A2 true EP0149257A2 (en) | 1985-07-24 |
EP0149257A3 EP0149257A3 (en) | 1987-09-30 |
Family
ID=17172937
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP84116484A Withdrawn EP0149257A3 (en) | 1983-12-30 | 1984-12-28 | Method of and apparatus for recording video signal associated with photographic image |
Country Status (3)
Country | Link |
---|---|
US (1) | US4641198A (en) |
EP (1) | EP0149257A3 (en) |
JP (1) | JPS60144082A (en) |
Cited By (4)
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FR2561843A1 (en) * | 1984-03-26 | 1985-09-27 | Dejoux Editions Imprimerie Ele | Installation for electronic capture of images,in particular for producing a mother tape intended for the manufacture of optical video disks. |
US4603966A (en) * | 1985-08-28 | 1986-08-05 | Eastman Kodak Company | Film video player/printer with cropping control |
US4616926A (en) * | 1985-08-28 | 1986-10-14 | Eastman Kodak Company | Film video player/printer |
CH675962A5 (en) * | 1988-10-04 | 1990-11-30 | Hermann Ag W |
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JPS61177080A (en) * | 1985-02-01 | 1986-08-08 | Fuji Photo Film Co Ltd | Video signal recorder of photographic picture |
US4827526A (en) * | 1985-04-16 | 1989-05-02 | Fuji Photo Film Co., Ltd. | Image information detecting/processing method |
US4777525A (en) * | 1985-12-23 | 1988-10-11 | Preston Jr Kendall | Apparatus and method for a multi-resolution electro-optical imaging, display and storage/retrieval system |
JPS62135257U (en) * | 1986-02-19 | 1987-08-26 | ||
US4731542A (en) * | 1986-09-11 | 1988-03-15 | Synergy Computer Graphics | System and method for activating an operating element with respect to a moving substrate |
JPS63223648A (en) * | 1987-03-12 | 1988-09-19 | Yutaka Denki Kk | Registering device |
JPS6435541A (en) * | 1987-07-31 | 1989-02-06 | Fuji Photo Film Co Ltd | Photographic printer |
US5241659A (en) * | 1990-09-14 | 1993-08-31 | Eastman Kodak Company | Auxiliary removable memory for storing image parameter data |
US5270831A (en) * | 1990-09-14 | 1993-12-14 | Eastman Kodak Company | Storage and playback of digitized images in digital database together with presentation control file to define image orientation/aspect ratio |
AU8656791A (en) * | 1990-09-19 | 1992-04-15 | N.V. Philips Gloeilampenfabrieken | Digitized picture play back device and method for playing back digitized pictures |
WO1992005658A1 (en) * | 1990-09-19 | 1992-04-02 | N.V. Philips' Gloeilampenfabrieken | Read device |
NL9002114A (en) * | 1990-09-19 | 1992-04-16 | Koninkl Philips Electronics Nv | IMAGE STORAGE SYSTEM. |
US5239394A (en) * | 1990-10-05 | 1993-08-24 | Eastman Kodak Company | Apparatus for storing image information on a photographic record member |
US5138459A (en) * | 1990-11-20 | 1992-08-11 | Personal Computer Cameras, Inc. | Electronic still video camera with direct personal computer (pc) compatible digital format output |
JPH05153483A (en) * | 1991-11-29 | 1993-06-18 | Minolta Camera Co Ltd | Film player |
IT1266305B1 (en) * | 1993-04-23 | 1996-12-27 | Gd Spa | METHOD FOR MAKING FILTER CIGARETTES. |
JPH08336069A (en) * | 1995-04-13 | 1996-12-17 | Eastman Kodak Co | Electronic still camera |
US5973734A (en) | 1997-07-09 | 1999-10-26 | Flashpoint Technology, Inc. | Method and apparatus for correcting aspect ratio in a camera graphical user interface |
US6317141B1 (en) | 1998-12-31 | 2001-11-13 | Flashpoint Technology, Inc. | Method and apparatus for editing heterogeneous media objects in a digital imaging device |
US9224145B1 (en) | 2006-08-30 | 2015-12-29 | Qurio Holdings, Inc. | Venue based digital rights using capture device with digital watermarking capability |
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FR2561843A1 (en) * | 1984-03-26 | 1985-09-27 | Dejoux Editions Imprimerie Ele | Installation for electronic capture of images,in particular for producing a mother tape intended for the manufacture of optical video disks. |
US4603966A (en) * | 1985-08-28 | 1986-08-05 | Eastman Kodak Company | Film video player/printer with cropping control |
US4616926A (en) * | 1985-08-28 | 1986-10-14 | Eastman Kodak Company | Film video player/printer |
CH675962A5 (en) * | 1988-10-04 | 1990-11-30 | Hermann Ag W |
Also Published As
Publication number | Publication date |
---|---|
EP0149257A3 (en) | 1987-09-30 |
JPS60144082A (en) | 1985-07-30 |
US4641198A (en) | 1987-02-03 |
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Inventor name: OHTA, TAKAHIROC/O FUJI PHOTO FILM CO., LTD. Inventor name: INUIYA, MASAFUMIC/O FUJI PHOTO FILM CO., LTD. Inventor name: FUJIMURA, IKUOC/O FUJI PHOTO FILM CO., LTD. |